Potential of carbon sequestration enhancement through intensive silvicultural techniques using Shorea leprosula plantation in Central Kalimantan, Indonesia

Q2 Agricultural and Biological Sciences
M. ISKANDAR, ISKANDAR ZULKARNAEN SIREGAR, HARUNI KRISNAWATI
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Abstract

Abstract. Iskandar M, Siregar IZ, Krisnawati H. 2023. Potential of carbon sequestration enhancement through intensive silvicultural techniques using Shorea leprosula plantation in Central Kalimantan, Indonesia. Biodiversitas 24: 4699-4713. Various sectors are involved in achieving Indonesia’s Enhanced Nationally Determined Contribution (NDC), including Forestry and Other Land Uses (FOLU) sector. Sustainable Forest Management (SFM) implementation by forest concessionaires (PBPHs) enormously contributes to land-based mitigation activities, primarily at the local level. One of the SFM activities is forest enrichment with Intensive Silvicultural (SILIN) technique using Shorea leprosula Miq. to enhance carbon stock and sequestration. This study was conducted in PT Sarmiento Parakantja Timber (PT Sarpatim) in Central Kalimantan (Indonesia) and used the measurement data from 32 purposive sampling plots. Each plot was 40m × 40m in size, constructed under three different SILIN patterns (conventional strip, effective strip, and gap) as well as natural forest stands. This study found that SILIN gap pattern had higher carbon stock and sequestration potential, compared to the natural forest (reference) stands, and reached a net sink condition after 30 years. For the stands of SILIN conventional and effective strip patterns, the carbon stocks were lower than the reference stand, even when the vegetation aged 30 years. PBPHs applying SILIN technique as part of the SFM and the mitigation actions demonstrate an enhanced carbon stock and sequestration. This effort supports Indonesia’s Enhanced NDC target and FOLU Net Sink 2030.
利用印度尼西亚加里曼丹中部麻风Shorea人工林集约造林技术提高碳固存的潜力
摘要Iskandar M, Siregar IZ, Krisnawati H. 2023。利用印度尼西亚加里曼丹中部麻风Shorea人工林集约造林技术提高碳固存的潜力。生物多样性,24:4699-4713。各个部门都参与实现印度尼西亚的国家自主贡献(NDC),包括林业和其他土地利用部门。森林特许经营者实施可持续森林管理极大地促进了主要在地方一级的陆基缓解活动。森林资源管理活动之一是利用麻风树进行集约化造林(SILIN)技术来丰富森林。提高碳储量和固碳能力。本研究在印度尼西亚加里曼丹中部的PT Sarmiento Parakantja Timber (PT Sarpatim)进行,并使用了32个有目的采样样地的测量数据。每个地块的面积为40m × 40m,在三种不同的SILIN模式(常规带状、有效带状和间隙)和天然林林分下构建。研究发现,与天然林(参考)林分相比,SILIN林隙格局具有更高的碳储量和固碳潜力,30年后达到净汇状态。常规带状和有效带状林分的碳储量即使在植被老化30年时也低于参考林分。将SILIN技术作为可持续森林管理和缓解行动的一部分加以应用的pbph表明,碳储量和固碳能力得到了增强。这一努力支持了印度尼西亚加强国家自主贡献目标和2030年FOLU净汇。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Biodiversitas
Biodiversitas Agricultural and Biological Sciences-Animal Science and Zoology
CiteScore
2.80
自引率
0.00%
发文量
471
审稿时长
6 weeks
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